Control mechanism for stepless transmission

What is claimed is: 1. A control mechanism for a stepless transmission connected to a manipulation lever in the stepless transmission and disposed outside a housing of the stepless transmission, the control mechanism for the stepless transmission comprising: a) a piston rod connected to the manipulation lever; b) a piston provided on the piston rod wherein the piston is coaxial with the piston rod; c) a cylinder case provided with a cylinder configured to house the piston rod and the piston such that the piston rod and the piston are displaceable in an axial direction, the piston and the cylinder forming a first fluid chamber to be supplied with a hydraulic fluid for withdrawing the piston rod from the cylinder and a second fluid chamber to be supplied with the hydraulic fluid for introducing the piston rod into the cylinder; d) a spring configured to bias the manipulation lever in a neutral direction coaxially with the piston rod; e) a proportional pressure control valve configured to selectively supply the hydraulic fluid to the first fluid chamber or the second fluid chamber, the proportional pressure control valve being mounted to the cylinder case; and f) a pivot shaft fixed to the housing and configured to support the cylinder case such that the cylinder case rotates around an axis of the pivot shaft with respect to the housing. 2. The control mechanism for the stepless transmission according to claim 1 , wherein the proportional pressure control valve is composed of a first valve configured to supply the hydraulic fluid to the first fluid chamber and a second valve configured to supply the hydraulic fluid to the second fluid chamber, and an axis center of the piston rod, an axis center of displacement of a valve body of the first valve, and an axis center of displacement of a valve body of the second valve form a triangle shape, when viewed in the axial direction of the piston rod. 3. The control mechanism for the stepless transmission according to claim 1 , wherein the spring is arranged in the axial direction such that a coil axis center of the spring and the axis center of the piston rod are substantially coincident with each other. 4. The control mechanism for the stepless transmission according to claim 3 , wherein the piston rod, the first valve, and the second valve are disposed such that the axial direction of the piston rod, a direction of displacement of a valve body of the first valve and a direction of displacement of a valve body of the second valve are parallel with each other, and the spring is disposed on one end of the cylinder case in the axial direction of the piston rod, and the first valve and the second valve are disposed on the other end of the cylinder case on an opposite side to the spring, in the axial direction of the piston rod. 5. The control mechanism for the stepless transmission according to claim 1 , further comprising a mounting part disposed around and secured to the pivot shaft such that the mounting part rotates about the pivot shaft and is prevented from being disengaged from the housing, wherein the mounting part is detachably mounted to the cylinder case. 6. The control mechanism for the stepless transmission according to claim 5 , wherein the cylinder case is mounted to the mounting part such that an axis line of the piston rod and an axis line of the pivot shaft are overlapped with each other in a plan view. 7. The control mechanism for the stepless transmission according to claim 1 , wherein the piston rod is provided with a thread portion at a tip end portion and a flat portion in at least a portion of an outer peripheral surface of the piston rod, and wherein the piston rod is secured, through screwing, to a mounting part.